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7bd071edb1
Removed tight connections between data structures, auxiliary tools and algorithms in order to create extensible solution, easy for maintenance and improvements; Code is separated on several functional units responsible for specific operation for the sake of simplification of debugging and readability; Introduced new data structures enabling possibility to manipulate discrete model of particular entity (edge, wire, face) in order to perform computations locally instead of processing an entire model. The workflow of updated component can be divided on six parts: * Creation of model data structure: source TopoDS_Shape passed to algorithm is analyzed and exploded on faces and edges. For each topological entity corresponding reflection is created in data model. Note that underlying algorithms use data model as input and access it via common interface which allows user to create custom data model with necessary dependencies between particular entities; * Discretize edges 3D & 2D curves: 3D curve as well as associated set of 2D curves of each model edge is discretized in order to create coherent skeleton used as a base in faces meshing process. In case if some edge of source shape already contains polygonal data which suites specified parameters, it is extracted from shape and stored to the model as is. Each edge is processed separately, adjacency is not taken into account; * Heal discrete model: source TopoDS_Shape can contain problems, such as open-wire or self-intersections, introduced during design, exchange or modification of model. In addition, some problems like self-intersections can be introduced by roughly discretized edges. This stage is responsible for analysis of discrete model in order to detect and repair faced problems or refuse model’s part for further processing in case if problem cannot be solved; * Preprocess discrete model: defines actions specific for implemented approach to be performed before meshing of faces. By default, iterates over model faces and checks consistency of existing triangulations. Cleans topological faces and its adjacent edges from polygonal data in case of inconsistency or marks face of discrete model as not required for computation; * Discretize faces: represents core part performing mesh generation for particular face based on 2D discrete data related to processing face. Caches polygonal data associated with face’s edges in data model for further processing and stores generated mesh to TopoDS_Face; * Postprocess discrete model: defines actions specific for implemented approach to be performed after meshing of faces. By default, stores polygonal data obtained on previous stage to TopoDS_Edge objects of source model. Component is now spread over IMeshData, IMeshTools, BRepMeshData and BRepMesh units. <!break> 1. Extend "tricheck" DRAW-command in order to find degenerated triangles. 2. Class BRepMesh_FastDiscret::Parameters has been declared as deprecated. 3. NURBS range splitter: do not split intervals without necessity. Intervals are split only in case if it is impossible to compute normals directly on intervals. 4. Default value of IMeshTools_Parameters::MinSize has been changed. New value is equal to 0.1*Deflection. 5. Correction of test scripts: 1) perf mesh bug27119: requested deflection is increased from 1e-6 to 1e-5 to keep reasonable performance (but still reproducing original issue) 2) bugs mesh bug26692_1, 2: make snapshot of triangulation instead of wireframe (irrelevant) Correction in upgrade guide.
167 lines
5.5 KiB
C++
167 lines
5.5 KiB
C++
// Created on: 2014-08-13
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// Created by: Oleg AGASHIN
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// Copyright (c) 2011-2014 OPEN CASCADE SAS
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//
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// This file is part of Open CASCADE Technology software library.
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//
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// This library is free software; you can redistribute it and/or modify it under
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// the terms of the GNU Lesser General Public License version 2.1 as published
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// by the Free Software Foundation, with special exception defined in the file
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// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
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// distribution for complete text of the license and disclaimer of any warranty.
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//
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// Alternatively, this file may be used under the terms of Open CASCADE
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// commercial license or contractual agreement.
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#ifndef _BRepMesh_EdgeParameterProvider_HeaderFile
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#define _BRepMesh_EdgeParameterProvider_HeaderFile
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#include <IMeshData_Types.hxx>
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#include <IMeshData_Edge.hxx>
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#include <IMeshData_Face.hxx>
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#include <TopoDS.hxx>
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#include <Standard.hxx>
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#include <Standard_DefineAlloc.hxx>
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#include <Extrema_LocateExtPC.hxx>
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#include <TColStd_HArray1OfReal.hxx>
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#include <BRepAdaptor_Curve.hxx>
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#include <Adaptor3d_CurveOnSurface.hxx>
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#include <TColStd_HArray1OfReal.hxx>
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#include <Geom2dAdaptor_HCurve.hxx>
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#include <GeomAdaptor_HSurface.hxx>
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class gp_Pnt;
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class TopoDS_Edge;
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class TopoDS_Face;
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//! Auxiliary class provides correct parameters
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//! on curve regarding SameParameter flag.
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template<class ParametersCollection>
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class BRepMesh_EdgeParameterProvider : public Standard_Transient
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{
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public:
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DEFINE_STANDARD_ALLOC
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//! Constructor. Initializes empty provider.
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BRepMesh_EdgeParameterProvider()
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{
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}
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//! Constructor.
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//! @param theEdge edge which parameters should be processed.
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//! @param theFace face the parametric values are defined for.
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//! @param theParameters parameters corresponded to discretization points.
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BRepMesh_EdgeParameterProvider(
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const IMeshData::IEdgeHandle& theEdge,
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const TopAbs_Orientation theOrientation,
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const IMeshData::IFaceHandle& theFace,
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const ParametersCollection& theParameters)
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{
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Init(theEdge, theOrientation, theFace, theParameters);
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}
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//! Initialized provider by the given data.
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void Init (
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const IMeshData::IEdgeHandle& theEdge,
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const TopAbs_Orientation theOrientation,
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const IMeshData::IFaceHandle& theFace,
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const ParametersCollection& theParameters)
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{
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myParameters = theParameters;
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myIsSameParam = theEdge->GetSameParam();
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myScale = 1.;
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// Extract actual parametric values
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const TopoDS_Edge aEdge = TopoDS::Edge(theEdge->GetEdge().Oriented(theOrientation));
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myCurveAdaptor.Initialize(aEdge, theFace->GetFace());
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if (myIsSameParam)
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{
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return;
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}
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myFirstParam = myCurveAdaptor.FirstParameter();
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const Standard_Real aLastParam = myCurveAdaptor.LastParameter();
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myFoundParam = myCurParam = myFirstParam;
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// Extract parameters stored in polygon
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myOldFirstParam = myParameters->Value(myParameters->Lower());
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const Standard_Real aOldLastParam = myParameters->Value(myParameters->Upper());
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// Calculate scale factor between actual and stored parameters
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if ((myOldFirstParam != myFirstParam || aOldLastParam != aLastParam) &&
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myOldFirstParam != aOldLastParam)
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{
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myScale = (aLastParam - myFirstParam) / (aOldLastParam - myOldFirstParam);
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}
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myProjector.Initialize(myCurveAdaptor, myCurveAdaptor.FirstParameter(),
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myCurveAdaptor.LastParameter(),Precision::PConfusion());
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}
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//! Returns parameter according to SameParameter flag of the edge.
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//! If SameParameter is TRUE returns value from parameters w/o changes,
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//! elsewhere scales initial parameter and tries to determine resulting
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//! value using projection of the corresponded 3D point on PCurve.
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Standard_Real Parameter(const Standard_Integer theIndex,
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const gp_Pnt& thePoint3d) const
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{
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if (myIsSameParam)
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{
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return myParameters->Value(theIndex);
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}
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// Use scaled
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const Standard_Real aParam = myParameters->Value(theIndex);
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const Standard_Real aPrevParam = myCurParam;
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myCurParam = myFirstParam + myScale * (aParam - myOldFirstParam);
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const Standard_Real aPrevFoundParam = myFoundParam;
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myFoundParam += (myCurParam - aPrevParam);
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myProjector.Perform(thePoint3d, myFoundParam);
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if (myProjector.IsDone())
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{
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const Standard_Real aFoundParam = myProjector.Point().Parameter();
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if ((aPrevFoundParam < myFoundParam && aPrevFoundParam < aFoundParam) ||
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(aPrevFoundParam > myFoundParam && aPrevFoundParam > aFoundParam))
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{
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// Rude protection against case when amplified parameter goes before
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// previous one due to period or other reason occurred in projector.
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// Using parameter returned by projector as is can produce self-intersections.
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myFoundParam = aFoundParam;
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}
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}
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return myFoundParam;
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}
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//! Returns pcurve used to compute parameters.
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const Handle(Adaptor2d_HCurve2d)& GetPCurve() const
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{
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return myCurveAdaptor.CurveOnSurface().GetCurve();
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}
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private:
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ParametersCollection myParameters;
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Standard_Boolean myIsSameParam;
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Standard_Real myFirstParam;
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Standard_Real myOldFirstParam;
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Standard_Real myScale;
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mutable Standard_Real myCurParam;
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mutable Standard_Real myFoundParam;
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BRepAdaptor_Curve myCurveAdaptor;
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mutable Extrema_LocateExtPC myProjector;
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};
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#endif
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